Moving-picture machine.



E. H. SPERBERG.

MOVING PICTURE MACHINE.

APPLIcATloN yum mma, 1911.

.Patented May 7, 1919.

5 SHEETS-SHEET l.

E. H. SPERBERG. MOVING PICTURE MACHINE.

APPLICATION FILED JANS, 1911.

Patented May 7, 1912.

5 SHEETS-SHEET 2.

MUT/1155555 E. H. SPHRBBRGi MOVING PIGTURE MACHINE. APPLICATION FILED JAN.3,1911

Patented May '7, 1912.

5 SHEETS-SHEET 3.

E. H. SPERBERG. yMOVING PICTURE MACHINE. APPLICATION FILED JAN.a, 1911.

1,025,887. Patented May 7, 1912 5 SHEETS-SHEET 4.

E. H. SPERBERG.

MOVING PICTURE MACHINE.

APPLICATION FILED JAN. s, 1911.

1,025,887. Patented May 7, 1912.

5 SHEETS'SIIEET 5,

i? @awww Be it known that'l, Enwaiin ful Improvements in Moving-Picture `Ma-v I is. not limited to the use ofv such a shutter,

' stationary.

'ya certain practical limit of quickness has y ehine"inay be designed 'and huilt to move l UNITED STQLTES PATENT OFFICE.

EDWARD H. SPERBERG, 0F O-ICAGO, ILLINOIS,ASSIGNOR TO OSCAR F. FOSS, OF

. CHICAGO', ILLINOIS.

MOVING-PICTURE MACHINE.

Application filed January 3,

Specification of Letters Patent.

Patented-May t, 1912. 191i. sei-iai 110.600,53. I

T 0 all whom it may' @0n-cern H. Sriikisiziie, acitizen of the United States, residing at Chicago, in the county of Cook and State of Illinois,'ha've invented certain'new and use chimes, of which the following is a speeifiea tion.

' lThis invention relates to n u'iving picture. machines ofthe general class in which 'the film is moved intermittently, past an aperture through whichv lightl is projected upon la screen; and relates partieularly'to those' *machines in which use is inadeof a shutter for cutting off the passage of light during 'the intervals of movement of the film, but

inasmuch it is found that the present mathe film so quickly that the shutter may he` dispensed with.

The vinvention further relates to a novel form of film feeding or advancing;` mechanism, and to the. means for framint; the. film so that the individual pictures of it will properly register before the aperture opening. he film feeding,r mechanism of the present invention peculiarly related tothe framing mechanism, so that the two virtu- -allv eon'iprise one an'd thetsame mechanism, owing. to a certain peculiar coaction or corelation between the parts` as will he more pai'ticularlypointed out in this specification.

. The principal ohjcct of the present invcntion is to provide. a film feedingr mechanism which may he designed to advance, thc film with great quickness, so that only a sinall percentage of the total time is ct'insumed in viiiovii'ig the film, thus leaving a large percentage of time duringf which the tilm is The mechanismsl arc particula'rly designed so that this quickness of movement may lie olitaincd with the minimumdetriment to tht` film. because it has been found that in previous construct-ions existed beyond which one may not .gowit'houtl greatly deterinratingr the film. In order toadvance lthe film quickly, that is. during a small percentage lof the total time, the film must he accelerated and then stopped duringr each movement. The amount of del terioration of the film depends largely upon the rate of this acceleration. The film feeding mechanism is one in which the rate of acceleration can he predcterinined, 'so that i it shall not he unnecessaril)y large, in order to feed the film during the given percentage of time. This cnahles me to feed the film with the desired quickness hut with the. minimum amount of jerk and consequent deterioration.

(.)ther objects of the present ini'ention are, 65 to provide .au extremeliy simple mechanism,

.one which may he used with orwithout a.

shutter, as desired; one in which .the/.parts shall he thoroughly inclosed and protected; one in which tlie\ film feeding mechanism will cease to operate. instant:ineously in eas-e1- the film hrealks or the feedingr mechanisn'i becomes.tlisairangedg to provide a mechanism which shall operate with great .smoothness and ease;l to provide means for pert mitting the filfm'to advance into the feeding Y mechanism intermittently whi-le .the -mainf roll of film rotates continuously; to provide :a construction which will permit the film to he threaded through the machine casi-l)1 and-80. accurately preparatory to feeding it to provide means for insuring that, the film shall lie smoothly across the aperti-ire; to provide a novel forni of' devicetor holding;r the filip in secure cnoaeemcnt with tht` draw roll; to 85 vprovide ya novel l'orm of catch for retaining;Ir

the film roll in position. andtor permitting the same to lic witlulra'wn when the film has heen coiuplctcfv iuii lthrough the luacliine, or to permit a new llin to lic substituted; and in other wavs and iuaniicrsftogenera'llv improve the construction of tlifisfclass o'f` machines.

Other ohjects and uses will appc'ai t ldetailed description of the invcntionwliich 95 consists in thc features ot' co'nstrrict'ion and coinhination of partsl liereina'f'tcr'descrihcd and claimedf v` Referring*r now to the drav\\'in`s..in l"ij uri-:l` l show a side view of mv -iuipfrovcd moving picture'machine` looking" toward the handle Vside thereof. the handleheine lirokenI away-"near its middle portion lto'sliow more clearly the door hclrind, the tire door lieing in open position. the feed roll and/'tht`A 105 tension mechanism heine" sliouniin'tlieiii ii tial position h v full lilies` and tion which they occupy at tlie.efiidof a4 stroke by means of dotted lines: in Fig.

21 Show an enlarged front view of the ma- 110 alone were removed when the parts were in the position -which they occupy when the filmis at rest, the kicking rolls being framed to feed "the film near the upper framing limit- Fig. 4 isa-verticalsection through the machine, showing particularly -the film door andthe'film feeding mechvanism which is shownln the posltion of rest; Flg.- 5 is a cross section taken at a point above thc-main shaft; Fig. 6 is a detail side'view of the main operative parts, showing particularlyv the kicklng rolls, the

lcam for operating them, the framing. mechanism for raising and lowering ther, and the mechanism for operating the shut-ters; Fig. 7 is a detail. of thev pressure fingers used for holding the -film securelyin mesh with the draw sprocket; 'and Fig. 8 is a detail of my improved film roll shaft-and t-he mechanism for holding the film roll in place on the same t In the embodiment of my invent-ion I provide a film draw sprocket, which rotates at uniform .speed to deliver the film `to any receiving device, such-as a roll or a basket. In order to draw the film intermittently past the aperture, I provide means for intermittent-ly forcing it down at a point in advance of the filmidraw sprocket. This lnechanism, which Icall the kicking mechv anism,- is so proportioned with respect `to the sprocketthat the film will beadvanced past the aperture a distance equal to one picture each time vit is-kiCked. While the kicking mechanism is being restored to its initial position preparatoryl to taking a new stroke, the sprocket. withdraws the film which was previously kicked into a loop, so that when the time arrives forA the next stroke the film will be practically tant andv the loop disposed of.' In the preferred construction, this prises oue or more rolls carried by a lightframework which may be kicked. in one direction withl the proper quickness, as by means of` a cam. In order to relieve thc film froln the excess tension which would come upon it, if it became necessary to vstart thel entire roll of film each time a strokewas performed, I provide means for kicking mechanism comthe film may be framed by providing mechanism for raising and lowering the kicking device so as todetermine the upper and lower limitsof its movement.

Referring now to the drawings, the body of the machine comprises primarily a base plate 9 provided with legs 10, 11, 12, and 13. Side Walls 14 and 15 act in'eoujunction with a front Wall 16, a rear Wall 17, and a top wall 18, to inclose the major portion of the mechanism. An aperture 19 in the frontwall lines up with a projecting lens 20 in t-he rear wall, so that the light passes directly through the film and through the machine. The lower portion 21 of the front wall is ycnt away to facilitate insert-ing thc film at. the beginning of an operation. A film door 22 is hingcdto the frontwall at one side of the aperture thereof, and is provided with an aperture 23 which lines up with that in the front wall when the door is closed. Angles 24 and 25 serve as guidcways for the film and are fiexibly supported by the front wall of the machine.

'Ihis may be done in any suitable way, but

the preferred construction consists in providing each guideway with a pair Aof pins 2G which extend through the .frontwall and are rigidly attached to upper and lower spring leaves 27, inside of the machine. The latter in turn are normally pressed against the inner face of the front wall by means of springs 2S, so that the guides are normally projected outward away from the front wall. A pair of smooth rods 29 and 30 ,are 'rigidly attached to thev inner face of the door in such posit-ion that when the `door is closed these rods will seat intg the angles 24 and 25, respectively, and press the film aga-inst the latter. This will'pro'? vide a flexible friction grip `for holding the film taut and smooth in front of the aperture, and for providinga suflicient amount of friction on the film to prevent-it from continuing its movement. aftcrtheklck has ceased, notwithstanding its inertia.v The rods 29 and 30 are preferably rounded at their upper ends 31, so as to remove all possibilit-y of the film becoming caught on them,

and at their lower ends 32' are also bent out to provide sufiicient room for the movement of the kickingr mechanism.

A removable bracket 33 is attached to the top of the machine and carries a film roll 34. The details of construction ofthis bracket will be brought ont later in this specification. From the roll the film 35 passes forward and down over the takeup mechanism 3G, which comprises a pair of fingers 37 and 38 attached to a shaft 39, which in turn is pivoted to the upper portion of the machine. This is preferably done by cutting away the up er central portion 40 of the front wall an then bending a portion of the top straightjdown to provide a pair of plates 41 laoV and 42 in which the Shaft 3f) is journaled. A springr 43 tends to throw the fingers out into the full line position of' Fig. l. thusy forming a, loop 44 in ,the film. `lhen the film is Suddenly jerked down the film in this loop will he taken np and thel fingers will he thrown over into the dotted line position. However, owing to the spring tension. the outward force on the fingers will he sufficient to maintain the film under a tension such that the reel will rotate at a practically constant Speed. Sufficient to meet the average demand for film.

.i catch 45, of any `Qnitahle construction. engages a hole lo in the f'ront ot' the machine to keep the door closed. ln order to compensate for slight irregularities in the width of the film, or in order to permit slight sidewise adjustment of the same. the pins 2G of the angle 25 are carried in thc Slots of the springs 27. leaf springr 47 always acts to press the angle inward toward the other angle into the position shown in Fig. Q.

A main shaft 48 spans the interior of the machine from side wall to side wall. and carries near one end a main gear 49. A crank 50. of' which I will presently descrihe the details. serves to rotate the shaft 45% in normal operation. The main gear 4S) meshesy with a pinion 5l of eXtra width. and a feed gear 52 in turn is driven from the pinion.

l will now deScribe the preferred form of film-advancinglv mechanism. including the mechanism used for securing an intermittent movement of the film. Referring: particularly to Figs. 2S, 4. 5 and (i. the pinion 51 is Seen to drive a Shaft. 53. one end of" which finds a hearing in the iside wall li. and the other end of which is carried hy a hracket- 54 attached to the rear wall li'. Ad jacent the bracket this shaft carries z cam 55 of peculiar shape. which serves to operate, the kicking' mechanism. framingn har 5G is atidahly carried hy an arm of the hraekct. in a peculiar manner. as will he hereinafter descrihed. The kicking;V mecha nism comprisea essentially a light framework in the t'oim of' a hell crank. one arm of which is provided with a rolle 58. which engages the cam 55, and the other arm of which carries one or more roller 5t) which press againstI the film. rl`he cam arm preferably hifurcated. so that its parts t1() and (31 Straddle the fran'iing` har and are pivoted thereto at 62. The preferred eon- Struction is one in which the rollers .79 are carried hy a shaft Gf Vwhich is pivoted in a trame til. carried to one side .of the framingr har and in such position that the rollers line up with the sides' of' the film strip. lividently, as the shaft 5?, rotates. the roller 5S will be thrown ont hy thc csa and will remain away from them. ant provided for restoring the roti r after each `a loop #l l.

hlow iS delivered against it. The gear 52 drives a Shaft 65. which finds hearings in the Side wall lv't and the hracket 5l. .\t its inner end this4 .shaft carries a lilm draw roll (lo provided with sprocket teeth (3T properly lined up to mesh with the pm't'orations ot the film. the machine operates. this draw sprocket `will rotate at a uniform speed. so that the film will he delivered from it at a constant speed.

Reference to Fig. l will show the manner in which the film is to he t'ed through the machine. From the reel it passesy to the from ot' the machine and over the takcup mechanism. lt then passes down over the guideeI 2l and 25. against which it is pressed hy the hars 2S) and 30. which keep it prop erly lined up in front of the aperture and create a sufficient friction on it to insure. Smooth running'. The film then passes down and under the rolls 55) of the kicking mechanism. and then up and over the draw sprocket. from which it may he delivered straight down into a haskel. or to a receivinl;r reel. il desired. Owing to the fact that the draw sprocket rotates at constant speed. the film will always he, drawn, away from the kicking mechanism.

in Fig. l the partis are ho\\ n hy fnll lines i their initial position. that in the position which they occupy hcfore the hlow is delivered on they lilm hy the kickin; r mechanism. ln this case the tension device has moved out' into the full line. position to form In this case. alao. the draw sprocket hais carried ovet' all. or practically all. of the evcess film which was drawn down in the previous atroke. The parts` should he so proportioned that at the instant hefore thc kicking mechanism is operated.` all of this exceaa film will have heen drawn otl". o that the film will just lie taut against the rollers' 59, t this instant these rollersy are kicked down. thus formingA a loop. as hown hy dotted lines iu Fig. l. yl'he amount of movement ofthe rollers and the rate ofl rotation ot the draw sprocket should he so proportioned that the film will he drawn pa-.t the aperture an amount exactly equal to the"l long jth of one picture. so as to insure smooth operation. although it is ohvious that` in order to insure a film move ment exactly cipial to the length of' the picture. during cach stroke` it is only necessary that the draw .Sprocket should rotate a dis tance necwsary to pull the film an amount equal to the length of one picture cach time a hlow is delivered. f'lowcvcr. when the parts are pri'iportioncd in cvactly the right ratio. thc percentage ol time necessary to move the film will hc a minimum. and. there-- fore. most desirahlc. for it is evident that if the Stroke of' thc kickingr mechanism is means' are i too mall. that is. not enough to move thc film exactly one picture. the renaiinii'ig film movement will be accomplished aty slow speed and merely by the pull created b y the rotation of the draw sprocket.

I will now describe more in detail thel preferred form of framing mechanism. In the construction illustrated the faming har is provided with two slots 67u and GS, through which pass tap screws (Si) and 7() which are threaded into a T-shaped bar 7l, which t'ormsl part of the arm 5T. These screws serve to hold the framing bar against the arms 71. tightly but flexibly. through the medium otsprings T2, Sutiieient friction is thus created between the parts. so that. after the position ol' the framing bar is once adjusted` the normal .stresses coming upon it during;l operation will not throw it out ol' adjustment. A\ lever T3, pivoted at 74 to a stationary part ot' the mechanism, acts, through the medimn of a link 75, to raise and lower the t`ramin;` bar. for framing purposes.

The framing' operation may best be understood by reference to Fig. G. 'lhe roller 5S always lies in contact with the cam 35, because the tilm is always pulling upwardly against the roller Dit. yl`htlreiore, it' the pivotal point tr.) is raised while the cam remains in the position illustrated. then the roller .79 will be raised a still greater amount.. because it is tiarther trom the cam than is the pivotal point 13;). ln like malmer tht` loweringr o'l" the pivotal point. while the roller .3H remains` in contact with the cam` 'will result in a loweringr ot` the roller 39. lt makesl no ditl'erence what may be the posiN tion ot' the cam when the pivotal point is raised or lowered the tilm roller 5ft will be raised or `lowered according' as the pivotal point is raised or lowered. liut. the amount ot' stroke ol' the lilm roller is always the same viz: that. amount necessary to Ijerk the [ilm a distance equal to one picture and this is true because the ram of is properly l'ormed to .secure such result. 'l`heret'ore. if the pivotal point be lowered the roller fait will vibrate up and down a Igiven distance between low limits. while if the pivotal point be raised the same amount of vibration will occur between high limits'. Now the tilm perlorations` are always meshing with the teeth ol' the lilm draw-roll tt. which is rotating' at continuous speed to pull lilm away t'rom the kickingf rolls. Huppose that at lsome instant before the roll tit had op|mrtunity to pull the tilm appreelably the pivotal point tri were lowered. This would lower the roll and the lilln would have to move down. Since tbe tilm could not pull baclv'ward ou account of its meshing' \\V`itll lllt tttlll ol' lltt toll titi` the lilm in from of the aperture would have to lower. and thus a new relation would be established between the tilm and the aperture. ,\,s the cam and the draw-roll tlt' continue to rotate, each picture of the film would occupy this new relation with respect to the aperture, or,\in other words, the film would be framed. Of course, a similar framing action will ensue in ease the pivotal point is moved up, because this will allow the film to occupy a higher position with respect to the aperture than otherwise.

Reference particularly to Fig. G will show that it is desirable, although not necessary, that the framing bar should move in a certain manner with respect to the cam, in order that they roller 5S of the kicking mechanism preserve the best relative position with respect to the cam for all positions otl the framing bar. Vln the construction illustrated. the framing bar is shown as havingl a movement along a straight line situated at a particular angle with respect to other portions of the machine: it is shown as having a movement along the T bar 71. However, l do not restrict myself in any way to such movement, but contemplate within the scope ot' my invention any form of movement whereby the upper and lower limits of stroke of the lv'icking mechanism may he adjusted, and lV include within the scope of my invention any mechanism for performin;r such adjustn'ient'. excent as otherwise limited in the claims.

In the construction of kickingr mechanism illustrated. itwill be seen that, as the cam 55 moves over to the left in Fig. t3, itL seems to press directly against the roller 58. However, owingr to the fact that the entire kicking' mechanism is pivoted at a point below the cam. binding will not occur between the parts. but the arms (it) and (Sl will be pushed over to the left as the cam advances. Furthermore. by properly shaping the cam and other portions with respect to each other` the exact movements of the kicking mechanism can be predetermined` so ,that the Hlm will be advanced duringr a predetern'lined pcrcentage ot the total time of the cycler of movements. and this can be done in such a way as to reduce the film aecelerations to the lowest necessary amounts. thus minimizingthe lierk and consequent Istrain thrown upon thel film.

l will now describe the preferred form of shutter mechanism when it is desired to use one. .\u eccentric 76 is mounted on the shaft 52'. preferably between the cam 55 and the pinion 5l. 'l`he strap 7T of this eccentric serves to oseillate a ball crank T8 pivoted to the bracket 5l at T9. so that the end H() is vibrated up and down. bracket Si is secured to the upper forward portion of the side wall lt and is olA such form that its arm SQ extends out` tar enough l'rom the side wall to clear the main gear and extends down with its lower end somewhat below the optical axis ot the lens. and 8l. pivoted to thisI bracket. are connected 'l`wo lshutters. SS'

h v means of links 85 :in d 86 to the end 8O of the hell Crank in siieh a way thaty as the latter ribrates up and down the shutters will he oseillated hack and forth in opposite ilireetioiis. By means of this eiinstriietioii. the light is out ottI from the lens. eoinineneing at the opposite sides thereof and moi'- ing inwardly to the center. and lighty is adniitted to the lens in a eontrariY manner. 'lhis arrangement insures :i more perteilt` distribution ot illumination. and. eonseiiiieiitiy. a4 more sati tartory projet-tion on the si'reen. The shutters are pi'et'ei'ahl)v pert'orateil iii a well known manner.

li: the, preferred eonstriietion whieh is illustrated throughout the tiiriii'es. the team as shown is provided with two iliainetri calliv opposite eain surfaces. so that two ironiplete strokes are delivered to the kicking' iiieohanism for earh revolution ot' the shaftA 53. During the saine time one foinplete revoliit'ion is given to the hell e'ank. so that hoth ot` the shutters more up anil ilown tliiiing the saine interval olz time. However. it is seen that the light is admitted to the lens and is out ott therefrom twiee hy sueh a movement ot' the shutters. so that the light is admitted onee for eaih movement of the kicking mechanism.

(lwing to the fact, that all ot' the .strains neeessariy for drawingthe fihi. kickingr it. and moving the shutters. are dei'iieil t'i-oiii the shaft 53. lY have `found that it is desirable to place a fly wheel Si on the saine. By plaeing the fly wheel on this shaftm the variations oi" torque coming upon the saine are trans-- iiiitted directly to and from the fly wheel and not through the intervention ot' the gear teeth. This insiires smoother running and less wear and tear than otherwise, and also permits me to make the gears ot` lighter and less expensive construction than would otherwise. he possible.

ln order to insure that the film shall run smoothly over the sprocket (Bti. and to keep the teeth ot' the sprocket evenly in iiiesh with the perforations of the tilni. l provide a pair of lingers H8 and Si), which may he thrown over ailiai'eiit to the spi-oeket and whieh will encircle a portion ot it. llaeh ot these fingers is provided. in that portion thereof whiirh eiig'agifes the `-pi'oikit. with :i rih titl. raised a siiliieient ainoiiiil to allow the sprocket teeth lo pii iiiifhf' ii4 'i'hise liliVY gers are earrieit hi' :i shall ill, ii'hiifli is alily joiiriialwi ailiaieiit to the rear wiili ll and passed out' through the siile wall 1.1 where, it is provided with :i lever ll. hi

means ot' wliii'h it eiin he i-otateil to raisey the lingers away from the sproeket. ln Fig'. 7 l show more iii detail the eonstriiition oll these lingers, iiiih of whit'h is' pret'eialillif' stamped out from ysheet metal and is looped liaik in the portion flf .so as to provide, ail .liiional strength in its end adjacent to the 'gineiil oll the plate ill.

shaft. A block 94 is secured to the shaft', and is provided in its lower portion with an indentation tlf. into which may seat a steel hall Siti. or the equivalent. The ball can rise and l'all in a socket 9T, in the lower portion ot' which is plaeeil a leaf-springi 98 which normally forces the hall upward. By this construetioii the ting/ers are maintained at a proper point addiaeent to the sprocket or away troni the same. according to the position of the sliat't. hut the fingers will not normally reinain at any intermediate point. A\lso the parts shoiililhe so positioned that: the fingers do not normally lie in frictional eontaet with the spi'oekehhut Clear the same a slight amount to provide room for the film to pass heneath them and to reduce the friction.

l will now describe more in detail the pret'erreil ifonstriietion of bracket for Carryingr the t'ilm reel. This is in the form of a long arin fill. t-o the lower end of whieh are :ittai'heil a pair ol' shoes tltfmd 1.00, which lie tial against the top of the machine. A thiiinh y eieii 101 passes through the end of the shoe titi in the top ot the machine, and thinnh sei'ews 102 anil i0?, pass upwardly through the top ot the machine into the shoe tot). Referring' partieiilarly to Fig. 8 these tliiiinh sri'eiis pioriile a soliti attaehinentfor the hraeket. whieh hiaeltet terminates at, its upper enil in a sleeve ltla. iiito which iS entered :i hollow tiilie lti. whieh serves as a hea ringr for the reel. Near the outer end of the tithe. :iiiil to its upper portion, is pivoted a finger ltlt. whit'h may he raised or lowered at will. hy tow-ing' iii or out a rod 107, which passes through the tulie and terminates in a button ltli. spring '109 normally forces the rod out. so as to projet-t the entl ll() of the tinger helow the tithe in position to prei'eiit the reel lll lroiii heiiigslipped otll from the tiihe.

llxaininatioii partii'eiilzirly ol Figs. 'I and ft will show that the rear wall 17 terminates at: a point somewhat helow the renter of the hotly ol` the machine. The upper surface ll oi thisl wall iQ siilistantiall-iY lat. 'lhe rear eiiil olY thi` top wall tti' is lient. iii the l'oriii ol a lip lli. in troni ot whirh may he iiiserletl :i plate lll \\liiili enrries the leiiS. ttm-this plate ha liet-ii properliV iii erted in plaee in l'i'oiii ol' this4 lip.it is siiiingdown lliish with the i'f-aiwall. \o that it iirtually heroines :i portion otI tlie'aiinie. aiiil .so that it re\\ on the algilltj. Stops lli on thi side nail \er\'e to liniit the iiiwaril move- ()iiinig' to the tact that the renter ol' gravity ot the plate aiiil lensl is i-oiisiileralili' oiit`iile ol the point` of support otl the plate. the plzite will i'einaiii iii position on thi iiizii'liine when oni-e it has heen inserti-il in ti'oiit ol the lip` :intl `vwiiir;r ilowii against the Mops'. liv forming' the parts` ith a voniparatirnly tight lit, no dilli` cult-y is experienced in keeping the lens in proper position.

It Will be understood that in the preferred construction the kicking mechanism is so proportioned and placed with respect to the other parts otl the machine that it normally falls away Vfrom the cam. Vhen the parts are thus proportioned, preferred, the kicking mechanism will cease to operate immediately should the film break, because then there would exist no torce for raising the mechanism up into engagement with the cam. For this reason the danger ot' tannling the lilm up in the other parts of the machine is practicallyv eliminated', because the broken end of the film will simply pass over the sprocket and be delivered down into the basket or to a receiving reel.

I claim:

l. In a. moving picture machine, the combination of means for drawing the tilm at substantially uniform speed, means `for intermittently depressing the tilm at a point in advance of the drawing means, to cause an intermittent movement ot the tilm past the aperture of the machine, and means for varying the upper and lower limits ot' move ment of the del'nessing n'ieans tor training the ilm, substantially as described.

2. ln a moving picture machine, the combination ot a tilm-draw sprocket, means t'or rotatingr the same at substantiallyY uniform speed, a cam geared to the sprocket, an oscillatable lv'icking mechanism, pivotcd in position to be engaged by the cam and to be throvvn by tln` same, and meansl tor raising and lowering the pivotal point ot' the kicking mechanism. to determine the upper and lower limits ol' oscillation ole thc same, substantially as described.

Il. ln a moving picture machine, the combination ot' a lilmalravv sprocket. a cam geared to thc same. an oscillatable kicking' mechanism in the l'orm oti a bell crank, and pivotcd in position such that one olA its arms may engage the tilln' at a point in advance ot' the sprocket, and such that the other arm may l:c engaged bv the cani and be thrown by thc samc. |man.-y tor rotating the cani and `sprocket at .sulrdantiall'v unil'orm spccd, and means tor raisingr aml lowering' the pivotal point ot' thc kicking' mechanism, t.o'detormine the upper and lower limits otl the same lo l'ralnc thc tilm. substantially as described.

Vl. ln a moving picture. machine, the coinbnation ot' a tilm draw sprocket, a cam sbat't "cartal to the saine, a cani on thc shaft, an oseillatablc lv'iclv'ingl mcclmnism suitably pivott-l at a point to depress tbc lilnl in ad vance of the sprocket, and adapted to be intermittently engaged by the cam, and a fly wheel on the cam shaft, substantially as described.

5. ln a moving picture machine, the combination of a film-draw sprocket, a cam geared to the same, an oscillat-able framing plate in position such that the kicking mechanism will engage the film at a point in advance of the draw sprocket and in position to fbe engaged and thrown by the cam, and normally tending to fall into lowered position and away from the cani, and means for raising and lowering the framing plate to raise and lower the pivotal point of the kicking i'nechanism, whereby the upper and lower limits of throw thereof are varied to trame the tilni, substantially as described.

(i. ln a moving picture machine, the combination of a film-draw sprocket, a cam shaft geared to the same, a cam on the cam shaft, an oscillatablev kicking mechanism suitably pivoted at. a point. to depress the film in advance of the .sprocket and to be intermittently engaged b V the cani, an eccentric on the caln shaft, a bell crank pivoted `to a stationary point ot' the machine, and

having one arm connected to the eccentric, a shutter, and a connection from the other arm of the bell crank to the lshutter, substaw tiall)y as described.

T. ln a moving' picture machine, the combination ot' a pair ot' friction guideways, a tilm draw sprocket, a kicking mechanism interposed between the l.gfuidcways and the sprocket.means t'or raisingl and lowering the kicking mechanism to determine the upper and lower limits otA its movements. and means lor intermittently actuatingI the kick-- ing mechanism to depress the film at a point between the leuidcways and thc sprocket, .substantiallyy as described.

S. ln a moving picture machine, the combination ol' a pair of l'riction guidewavs, a tilm draw sprocket, an oscillatable kicking mechanism, means tor raising and lowering the pivotal point thercot', and a rotat ing caln tor intcrmittcnt'l'v actuating the kickingY mechanism to depress the tilm at a. point in advance ol the tilm draw .sprocket` the cam being suitably tormed to actuatc the kickingl mechanism to depress the tilln a given distance as the pivotal point ol' the kicking mechanism is raised or lowered, substantially as described. 

